• In June 2022, a major European airport implemented a new series of interactive kiosks offering passengers real-time flight updates, baggage tracking, and self-check-in services. This development is driving growth in the airport kiosk market, with a focus on improving passenger convenience and reducing congestion.

• In March 2023, SITA introduced a new self-service kiosk solution designed to streamline check-in and bag drop processes at airports. The kiosks are equipped with biometrics for seamless passenger identification, reducing lines and wait times. This is expected to significantly enhance the airport customer experience while improving operational efficiency.

In this report, the Airport Full Body Scanner Market has been segmented by Technology, Airport and Geography.

Airport Full Body Scanner Market, Segmentation by Technology

The Airport Full Body Scanner Market has been segmented by Technology into Millimeter Radio-Wave Scanner and Backscatter X-Ray Scanner.

Millimeter Radio-Wave Scanner

The Millimeter Radio-Wave Scanner is widely adopted for its non-ionizing radiation and ability to detect concealed threats without physical contact. This technology is preferred for its privacy-sensitive imaging and quick processing time. It accounts for approximately 65% of the market share due to its safety and reliability across major international airports.

Backscatter X-Ray Scanner

The Backscatter X-Ray Scanner uses low-dose ionizing radiation to create high-resolution images of objects hidden under clothing. Although it offers superior image clarity, privacy concerns and potential health risks have limited its adoption. This segment holds around 35% of the market, mostly used in high-security regions with enhanced screening protocols.

Airport Full Body Scanner Market, Segmentation by Airport

The Airport Full Body Scanner Market has been segmented by Airport into Class A, Class B, Class C, Class D, Class E, and Class G.

Class A

Class A airports are major international hubs handling the highest volume of passenger traffic and security screening. These airports account for nearly 40% of full body scanner installations due to their need for advanced screening technologies and enhanced threat detection.

Class B

Class B airports serve as regional connectors and secondary hubs with moderate to high passenger volumes. They contribute to approximately 25% of the market and often invest in cost-effective scanner systems that balance security and throughput.

Class C

Class C airports generally cater to domestic flights and have limited international traffic. Representing around 15% of the market, these airports prioritize compact and efficient scanning units to maintain security compliance within budget constraints.

Class D

Class D airports are smaller facilities, often in suburban or rural regions. These account for roughly 10% of the scanner market and focus on basic security infrastructure suitable for lower passenger flow environments.

Class E

Class E airports support limited regional operations and seasonal traffic. With a market share near 6%, these airports require minimal scanning setups while adhering to regulatory screening standards.

Class G

Class G airports are the smallest category, typically used for general aviation or private charter services. Holding less than 4% of the market, they opt for portable scanners or shared security resources when required.

Airport Full Body Scanner Market, Segmentation by Geography

In this report, the Airport Full Body Scanner Market has been segmented by Geography into five regions; North America, Europe, Asia Pacific, Middle East and Africa and Latin America.

Airport Full Body Scanner Market Share (%), by Geographical Region

North America

North America holds the largest market share of approximately 35%, driven by high adoption of advanced security systems in major airports across the United States and Canada. Strong regulatory standards and consistent investments in aviation security infrastructure fuel regional growth.

Europe

Europe accounts for around 25% of the market, supported by the deployment of full body scanners across key international hubs. The focus on privacy compliance and efficient passenger processing continues to influence purchasing decisions in this region.

Asia Pacific

Asia Pacific is experiencing rapid growth and represents nearly 20% of the market. Rising air travel demand, expanding airport infrastructure, and increasing security concerns across countries like China and India are driving the adoption of automated screening technologies.

Middle East and Africa

The Middle East and Africa region contributes approximately 10% to the global market. Investment in airport modernization and the rising prominence of international transit hubs are enhancing the deployment of high-tech scanning systems.

Latin America

Latin America accounts for about 10% of the market, with growth driven by upgrades in aviation security infrastructure and a focus on meeting global airport safety standards across major regional airports.

This report provides an in depth analysis of various factors that impact the dynamics of Airport Full Body Scanner Market. These factors include; Market Drivers, Restraints and Opportunities Analysis.

Drivers, Restraints and Opportunity Analysis

Drivers

• Increasing global focus on airport security
• Rising threat of concealed weapon smuggling
• Government mandates for passenger screening upgrades

• Growing air traffic and international travel - The surge in global air traffic and international travel has become a key driver for the airport full body scanner market. With millions of travelers passing through airports daily, there is mounting pressure on airport authorities to implement efficient and high-throughput security systems. Full body scanners have emerged as critical assets in achieving both speed and accuracy in passenger screening.

  As international tourism and business travel increase, airports face the challenge of balancing tight security protocols with passenger convenience. Traditional metal detectors and manual checks are no longer sufficient to address evolving threats, leading to a rise in the adoption of automated, high-resolution scanning technologies. These systems enhance operational efficiency by minimizing the need for physical pat-downs and secondary inspections.

  Full body scanners play a vital role in maintaining aviation security standards without compromising passenger flow. The increase in international flight frequency and expansion of airport terminals worldwide has pushed governments and operators to upgrade existing infrastructure with modern, AI-assisted scanning systems. These installations ensure faster threat detection and shorter queue times while complying with international safety regulations.

  Manufacturers that provide scalable, fast-processing, and privacy-compliant full body scanners are witnessing rising demand. As global mobility continues to rebound, the need for safe, seamless, and secure airport experiences will remain a dominant force shaping the growth of this market.

Restraints

• High installation and maintenance costs
• Privacy concerns among passengers and advocates
• Operational delays from scanning procedures

• Limited effectiveness against non-metallic threats - One of the most persistent restraints in the airport full body scanner market is the limited effectiveness of scanners against non-metallic threats. While modern systems are effective in identifying metallic objects, detecting plastic explosives, liquid-based contraband, or ceramic weapons remains a technical challenge. This limitation raises concerns about the completeness and accuracy of threat detection at security checkpoints.

  Some full body scanners rely on backscatter or millimeter-wave technology, which can miss well-concealed non-metallic materials due to their lower density or positioning on the body. These blind spots may lead to undetected security breaches and undermine confidence in the screening process. As a result, secondary inspections and manual searches are often still required, reducing the overall efficiency of the system.

  The inability to detect a full range of threats also exposes airports to security vulnerabilities and regulatory scrutiny. Aviation security agencies are under constant pressure to upgrade detection capabilities, but budget constraints and technology limitations slow down progress. This creates a gap between security expectations and operational realities, especially in high-traffic environments.

  To overcome this restraint, scanner manufacturers must invest in advanced imaging algorithms, material recognition software, and sensor fusion technologies. However, unless non-metallic threat detection improves significantly, the market will face hurdles in achieving full adoption and trust from aviation security stakeholders.

Opportunities

• Adoption of AI-powered threat detection algorithms
• Integration with biometric identity verification systems
• Deployment in emerging market international airports

• Development of contactless and faster screening tech - The evolution of contactless and faster screening technologies offers a major opportunity for the airport full body scanner market. As post-pandemic travel protocols prioritize minimal physical contact and higher throughput, airports are actively seeking systems that support both speed and safety in passenger screening. This shift has created demand for scanners that can perform detailed checks without compromising on processing times or user comfort.

  Technological advancements are enabling the development of next-generation scanners with touchless interfaces, AI-enhanced threat detection, and real-time imaging. These solutions improve efficiency by reducing the need for human intervention, while also addressing privacy concerns through automated threat identification without displaying anatomical details. Contactless systems appeal strongly to both travelers and security staff, enhancing the overall experience.

  As airports look to modernize their infrastructure, the adoption of such systems is becoming a priority in both new terminals and retrofitting projects. Governments are also supporting initiatives that encourage automation and digitization of airport security, which further fuels the integration of contactless scanning into mainstream operations. The scalability and flexibility of these solutions make them ideal for both large international hubs and regional airports.

  Vendors that develop fast, accurate, and hygienic screening technologies are well-positioned to lead this transformation. As contactless screening becomes the industry standard, investment in R&D focused on speed, safety, and user experience will play a critical role in shaping the future of airport security systems.

Key players in Airport Full Body Scanner Market include:

• Brijot Imaging Systems, Inc
• Iscon Imaging, Inc
• L-3 Technologies, Inc
• Millivision Technologies
• Nuctech Co Ltd
• Smith Group PLC
• Tek84 Engineering Group LLC
• Westminster International Ltd
• OD Security
• Rapiscan Systems Limited
• Adani Systems Inc
• Braun and Company Ltd

In this report, the profile of each market player provides following information:

• Company Overview and Product Portfolio
• Market Share Analysis
• Key Developments
• Financial Overview
• Strategies
• Company SWOT Analysis